CN113488800A

CN113488800A - Switch capable of displaying output power

Info

Publication number: CN113488800A
Application number: CN202110800499.4A
Authority: CN
Inventors: 赵晓光
Original assignee: Shenzhen Kedi Communication Technology Co ltd
Current assignee: Shenzhen Kedi Communication Technology Co ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2021-10-08
Anticipated expiration: 2041-07-15
Also published as: CN113488800B

Abstract

The invention discloses a switch capable of displaying output power, which comprises a case, wherein heat dissipation windows are respectively arranged at the two sides of the case close to the back, a plurality of Ethernet interfaces are arranged in the case and penetrate through the front surface of the case, a dustproof mechanism is arranged at the front end of the case, a power supply interface is arranged at one side of the front surface of the case close to the Ethernet interfaces, a dust collection mechanism is arranged at the rear end of the case, a screen groove is formed in the middle of the top end of the case, buckle grooves are formed in the middle of the top end of the case, which is positioned at the two sides of the screen groove, a screen display mechanism is arranged at the inner side of the screen groove, rail grooves are formed in the middle of the front surface of the case close to the two sides, and deashing heat dissipation grooves are formed in the case close to the positions, which correspond to the two heat dissipation windows; the invention can independently display the output power of each Ethernet interface, is convenient for maintaining the transmission line, is convenient for internal heat dissipation while cleaning internal dust, and can avoid the dust from entering the Ethernet interface to cause poor contact.

Description

Switch capable of displaying output power

Technical Field

The invention relates to the field of switches, in particular to a switch capable of displaying output power.

Background

The switch is a network device for signal forwarding, which is a device for expanding a network, can provide more connection ports in a sub-network to connect more computers, can be divided into a local area network switch and a wide area network switch according to a network coverage, and can be divided into different types such as an ethernet switch, a fast ethernet switch, a gigabit ethernet switch, an ATM switch, and an FDDI switch according to a transmission medium and a transmission speed.

The existing switch has certain disadvantages when in use, does not have the output power display function when in use, can not independently display the output power of each Ethernet interface, and is inconvenient for maintaining the transmission line; when the existing protection device switch is used, dust in the switch is difficult to clean, and the internal heat dissipation performance is poor, so that the service life of the switch is influenced; when the existing switch is used, dust is easy to enter at an Ethernet interface, poor contact is caused, and certain influence is brought to practical use.

Disclosure of Invention

The invention aims to provide a switch capable of displaying output power, which solves the problems that the existing switch does not have the output power display function, can not independently display the output power of each Ethernet interface and is inconvenient to maintain a transmission line when in use; when the existing protection device switch is used, dust in the switch is difficult to clean, and the internal heat dissipation performance is poor, so that the service life of the switch is influenced; when the existing switch is used, dust is easy to enter at an Ethernet interface, and the problem of poor contact is caused.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a can show output power's switch, including the machine box, the both sides of machine box all install the heat dissipation window by the back, a plurality of ethernet interface is installed in the inside of machine box and the front that runs through the machine box, dustproof mechanism is installed to the front end of machine box, the front that runs through the machine box is by one side of ethernet interface and is installed power source, the rear end of machine box is provided with dust collecting mechanism, the screen groove has been seted up between two parties on the top of machine box, the both sides that the top of machine box is located the screen groove all have been seted up between two parties, the inboard in screen groove is provided with screen display mechanism, the front that runs through the machine box is by both sides all seted up the track groove between two parties, the deashing radiating groove has all been seted up by the position of two corresponding radiating windows in the inside of machine box, the deashing cooling fan is installed to the front end in deashing radiating groove.

As a further scheme of the invention, a plurality of Ethernet interfaces are divided into two rows, and each row comprises ten independent Ethernet interfaces.

As a further scheme of the present invention, the screen display mechanism includes a plurality of unit display screens, the plurality of unit display screens are arranged in a matrix of four times five, rubber covered edges are installed on the peripheries of the plurality of unit display screens, two transmission lines are installed at the bottom end of each unit display screen, and the tail ends of the two transmission lines located at the bottom end of the same unit display screen are electrically connected to an ethernet interface.

As a further scheme of the invention, the dust collecting mechanism comprises a dust collecting box, a sealing plate is arranged in the middle of the front end of the dust collecting box, dust collecting holes are formed in the middle of the front end and the rear end of the sealing plate close to two sides, four plug-in cards are mounted on the front surface of the sealing plate, and jacks corresponding to the plug-in cards are formed in the back surface of the machine box.

As a further scheme of the invention, the sealing plate is sleeved with the dust collecting box, the four inserting cards are arranged in a rectangular shape, and the size of the dust collecting box is matched with that of the machine box.

As a further scheme of the invention, the dustproof mechanism comprises a dustproof box, a plurality of sealing rubbers are mounted on a box body penetrating through the dustproof box, slide rails are mounted on the back surface of the dustproof box close to two sides, return springs are mounted on the back surface of the slide rails, and a partition plate is mounted in the middle of the interior of the dustproof box close to the rear ends of the two sides of the slide rails.

As a further scheme of the invention, the sizes of the slide rail and the limit card are matched with the size of the rail groove, two ends of the middle part of the sealing rubber, which are provided with the notch return spring, are respectively and fixedly connected with the rear end of the slide rail and the groove wall of the rail groove, and the number and the position of the sealing rubber correspond to those of the Ethernet interface and the power interface.

As a further scheme of the present invention, the specific use steps of the switch are as follows:

the method comprises the following steps: pulling a dustproof box in the dustproof mechanism outwards to drive a sliding rail to slide forwards along the direction of a rail groove, so that a reset spring is stretched until a limiting clamp is contacted with the front end of the rail groove and the position cannot be pulled, plugging an external power line from a notch of sealing rubber and pulling down the external power line until the power connector falls to the position of a power interface, inserting the power connector into the power interface, then plugging an external network line into the notch of the sealing rubber in the same way, inserting the network line connector into an Ethernet interface, and then loosening the dustproof box to enable the dustproof box to be attached to the front of a machine box under the driving of restoring force of the reset spring;

step two: after the switch is started, the output power of each Ethernet interface is transmitted to the corresponding unit display screen through the corresponding transmission line in the screen display mechanism to be displayed, the unit display screen is stored by using the screen slot, meanwhile, the gap between the unit display screen and the screen slot is filled by using rubber covered edges, if the transmission line connected below the unit display screen is damaged, the screen display mechanism is taken out through the catching slot, and then the damaged transmission line is replaced and continuously connected;

step three: in-process at the switch operation, deashing heat dissipation fan is in the on-state, the side blows to the dust in getting into the machine box through the cooling window, make the dust blow to the collection grey hole of shrouding along the direction of deashing radiating groove, and the gathering is inside the dust collection box in dust collection mechanism, regularly take off dust collecting mechanism, open the inside dust of shrouding clearance dust collection box, accomplish the inboard front end of closing plate card at the dust collection box after the clearance of dust again, and can original position with dust collecting mechanism installation, utilize plug-in card cooperation jack to fix dust collecting mechanism, in the operation of deashing heat dissipation fan, the inside heat of machine box is through the external diffusion of cooling window under the air current drive of deashing heat dissipation fan formation.

The invention has the beneficial effects that:

1. according to the invention, by arranging the screen display mechanism, the screen groove and the catching groove, after the switch is started, the output power of each Ethernet interface is transmitted to the corresponding unit display screen through the corresponding transmission line in the screen display mechanism to be displayed, the unit display screen is stored by using the screen groove, meanwhile, the gap between the unit display screen and the screen groove is filled by using rubber covered edges, if the transmission line connected below the unit display screen is damaged, the screen display mechanism is taken out through the catching groove, and then the damaged transmission line is replaced and continuously connected, so that the maintenance of the transmission line is facilitated while the output power of each Ethernet interface is independently displayed;

2. by arranging the dust collecting mechanism, the deashing radiating groove and the deashing radiating fan, in the running process of the switch, the deashing radiating fan is in a starting state, on one hand, dust entering the machine box through the radiating window is blown, the dust is blown to the dust collecting hole of the sealing plate along the direction of the deashing radiating groove and is gathered inside the dust collecting box in the dust collecting mechanism, the dust collecting mechanism is periodically taken down, the sealing plate is opened to clean the dust inside the dust collecting box, the dust collecting mechanism is reassembled and installed back to the original position after the dust is cleaned, when the deashing radiating fan runs, the heat inside the machine box is driven by airflow formed by the deashing radiating fan to be diffused outwards through the radiating window, and the inside dust is cleaned and the inside radiating is convenient to radiate;

3. through arranging the dustproof mechanism and the track groove, the dustproof box in the dustproof mechanism is pulled outwards to drive the slide rail to slide forwards along the direction of the track groove, so that the reset spring is stretched until the limiting clamp is contacted with the front end of the track groove and can not be pulled, then the external power wire is plugged in from the incision of the sealing rubber and pulled downwards until the power connector is lowered to the position of the power interface, the power supply connector is inserted into the power supply interface, then the external network cable is plugged into the incision of the sealing rubber according to the same way, the network cable connector is inserted into the Ethernet interface, then the dustproof box is loosened, the dustproof box is attached to the front surface of the machine box under the driving of the restoring force of the reset spring, the outer rings of the network cable and the power line are sealed by using sealing rubber, the periphery of the Ethernet interface is sealed by using the dustproof box, so that the phenomenon that dust enters the Ethernet interface to cause poor contact is avoided.

4. The invention is convenient for maintaining the transmission line while independently displaying the output power of each Ethernet interface by arranging the screen display mechanism, the screen groove and the catching groove, is convenient for internally radiating while cleaning internal dust by arranging the dust collecting mechanism, the dust cleaning radiating groove and the dust cleaning radiating fan, and avoids the dust from entering the Ethernet interface to cause poor contact by arranging the dustproof mechanism and the track groove.

Drawings

FIG. 1 is a schematic diagram of an overall structure of a switch capable of displaying output power according to the present invention;

FIG. 2 is a schematic structural diagram of a switch capable of displaying output power according to the present invention, in which a screen display mechanism is separated from a chassis;

FIG. 3 is a schematic diagram of a screen display mechanism in the overall structure of a switch capable of displaying output power according to the present invention;

FIG. 4 is a top view of the internal structure of the box in the switch capable of displaying the output power according to the present invention;

FIG. 5 is a disassembled view of a dust collecting mechanism in the switch capable of displaying output power according to the present invention;

FIG. 6 is a schematic structural diagram of a dustproof mechanism in a switch capable of displaying output power according to the present invention;

fig. 7 is a side sectional view of a dust-proof mechanism in a switch capable of displaying output power according to the present invention.

In the figure: 1. a case; 2. a heat dissipation window; 3. an Ethernet interface; 4. a power interface; 5. a dust-proof mechanism; 6. a dust collecting mechanism; 7. a screen display mechanism; 8. buckling grooves; 9. a screen slot; 10. a track groove; 11. a unit display screen; 12. rubber wrapping; 13. a transmission line; 14. a deashing heat dissipation groove; 15. a deashing heat dissipation fan; 16. a dust collecting box; 17. closing the plate; 18. ash collecting holes; 19. inserting a card; 20. a dust-proof box; 21. sealing rubber; 22. a slide rail; 23. a limiting card; 24. a return spring; 25. a separator.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, a switch capable of displaying output power includes a case 1, heat dissipation windows 2 are installed at both sides of the case 1 near the rear, a plurality of ethernet interfaces 3 are installed inside the case 1 and on the front side penetrating the case 1, a dust prevention mechanism 5 is installed at the front end of the case 1, a power interface 4 is installed at one side of the front side penetrating the case 1 near the ethernet interfaces 3, a dust collection mechanism 6 is disposed at the rear end of the case 1, a screen slot 9 is disposed at the top end of the case 1 in the middle, catching slots 8 are disposed at both sides of the top end of the case 1 in the middle of the screen slot 9, a screen display mechanism 7 is disposed at the inner side of the screen slot 9, rail slots 10 are disposed at both sides of the front side penetrating the case 1 in the middle, dust removal heat dissipation slots 14 are disposed at positions of both sides of the inside of the case 1 corresponding to the two heat dissipation windows 2, and dust removal heat dissipation fans 15 are installed at the front ends of the dust removal heat dissipation slots 14.

The plurality of ethernet interfaces 3 are divided into two rows, and each row includes ten individual ethernet interfaces 3, which facilitates individual connection of network cables.

The screen display mechanism 7 comprises a plurality of unit display screens 11, the unit display screens 11 are arranged in a matrix of four times five, rubber wrapping edges 12 are installed on the peripheries of the unit display screens 11, two transmission lines 13 are installed at the bottom end of each unit display screen 11, the tail ends of the two transmission lines 13 located at the bottom end of the same unit display screen 11 are electrically connected with one Ethernet interface 3, and the output power of each Ethernet interface 3 can be conveniently and independently displayed.

The dust collection mechanism 6 comprises a dust collection box 16, a seal plate 17 is arranged in the middle of the front end of the dust collection box 16, dust collection holes 18 are formed in the middle of the front end and the rear end of the seal plate 17 by two sides, four plug-in cards 19 are installed on the front face of the seal plate 17, the back face of the machine box 1 is provided with insertion holes corresponding to the plug-in cards 19, and the dust collection mechanism 6 is convenient to install and detach.

The sealing plate 17 is sleeved with the dust collecting box 16, so that the sealing plate 17 can be conveniently mounted and dismounted, the four inserting cards 19 are arranged in a rectangular shape, and the size of the dust collecting box 16 is matched with that of the machine box 1.

Dustproof mechanism 5 includes dust proof box 20, installs a plurality of sealing rubber 21 on the box body that runs through dust proof box 20, and slide rail 22 is all installed by both sides to the back of dust proof box 20, and slide rail 22's back mounted has reset spring 24, and slide rail 22's both sides are all installed spacing card 23 dust proof box 20's inside and are installed the baffle 25 between two parties by the rear end, separate two rows of ethernet interfaces 3 about separating, avoid mutual interference.

The sizes of the sliding rail 22 and the limiting card 23 are matched with the size of the rail groove 10, two ends of the middle part penetrating through the sealing rubber 21 and provided with the notch reset spring 24 are fixedly connected with the rear end of the sliding rail 22 and the groove wall of the rail groove 10 respectively, the number and the positions of the sealing rubber 21 correspond to those of the Ethernet interfaces 3 and the power interfaces 4, and the sealing rubber 21 is convenient to seal the outer rings of network cables and power lines.

When the switch capable of displaying output power is used, firstly, pulling a dustproof box 20 in a dustproof mechanism 5 outwards to drive a sliding rail 22 to slide forwards along the direction of a rail groove 10, enabling a reset spring 24 to be stretched until a limiting card 23 is contacted with the front end of the rail groove 10 and can not be pulled, then plugging an external power line from a notch of a sealing rubber 21 and pulling down the external power line, when a power connector is lowered to the position of a power interface 4, inserting the power connector into the power interface 4, then plugging the external power line into the notch of the sealing rubber 21 in the same way, inserting the power line connector into an Ethernet interface 3, then loosening the dustproof box 20 to enable the dustproof box 20 to be attached to the front surface of a machine box 1 under the driving of the restoring force of the reset spring 24, and after the switch is started, the output power of each Ethernet interface 3 is transmitted to a corresponding unit display screen 11 through a corresponding transmission line 13 in a display mechanism 7 to be displayed, and the screen groove 9 is used for accommodating the unit display screen 11, meanwhile, the rubber binding 12 is used for filling the gap between the unit display screen 11 and the screen groove 9, if the transmission line 13 connected below the unit display screen 11 is damaged, the screen display mechanism 7 is taken out through the fastening groove 8, the damaged transmission line 13 is replaced and continuously connected, in the running process of the switch, the dust cleaning and radiating fan 15 is in a starting state, on one hand, the dust entering the machine box 1 through the radiating window 2 is blown, the dust is blown to the dust collecting hole 18 of the sealing plate 17 along the direction of the dust cleaning and radiating groove 14 and is collected in the dust collecting box 16 in the dust collecting mechanism 6, the dust collecting mechanism 6 is periodically taken down, the sealing plate 17 is opened to clean the dust in the dust collecting box 16, the sealing plate 17 is clamped at the front end of the inner side of the dust collecting box 16 after the cleaning of the dust is completed, the original position of the dust collecting mechanism 6 is installed, the dust collecting mechanism 6 is fixed by utilizing the plug-in card 19 to be matched with the jack, when the ash removal heat dissipation fan 15 operates, the heat inside the case 1 is driven by the airflow formed by the ash removal heat dissipation fan 15 to be diffused outwards through the heat dissipation window 2.

According to the invention, by arranging the screen display mechanism 7, the screen groove 9 and the catching groove 8, after the switch is started, the output power of each Ethernet interface 3 is transmitted to the corresponding unit display screen 11 through the corresponding transmission line 13 in the screen display mechanism 7 for display, the unit display screen 11 is stored by using the screen groove 9, meanwhile, the gap between the unit display screen 11 and the screen groove 9 is filled by using the rubber wrapping 12, if the transmission line 13 connected below the unit display screen 11 is damaged, the screen display mechanism 7 is taken out through the catching groove 8, and then the damaged transmission line 13 is replaced and continuously connected, so that the output power of each Ethernet interface 3 is independently displayed, and meanwhile, the maintenance of the transmission line 13 is facilitated; by arranging the dust collection mechanism 6, the dust removal heat dissipation groove 14 and the dust removal heat dissipation fan 15, in the operation process of the switch, the dust removal heat dissipation fan 15 is in a starting state, on one hand, dust entering the machine box 1 through the heat dissipation window 2 is blown, the dust is blown to the dust collection hole 18 of the sealing plate 17 along the direction of the dust removal heat dissipation groove 14 and is gathered inside the dust collection box 16 in the dust collection mechanism 6, the dust collection mechanism 6 is periodically taken down, the sealing plate 17 is opened to clean the dust inside the dust collection box 16, the dust collection mechanism 6 is reassembled and installed back to the original position after the cleaning of the dust is completed, when the dust removal heat dissipation fan 15 operates, the heat inside the machine box 1 is driven by airflow formed by the dust removal heat dissipation fan 15 to be diffused outwards through the heat dissipation window 2, and the internal heat dissipation is facilitated while the dust is cleaned; by arranging the dust-proof mechanism 5 and the track groove 10, pulling the dust-proof box 20 in the dust-proof mechanism 5 outwards to drive the slide rail 22 to slide forwards along the direction of the track groove 10, so that the reset spring 24 is stretched until the limit card 23 contacts with the front end of the track groove 10 to be in a pulling position, plugging and pulling down the external power line from the notch of the sealing rubber 21, inserting the power connector into the power interface 4 until the power connector descends to the position of the power interface 4, then plugging the external network cable into the notch of the sealing rubber 21 in the same way, inserting the network cable connector into the Ethernet interface 3, then loosening the dust-proof box 20, so that the dust-proof box 20 is attached to the front surface of the case 1 under the driving of the restoring force of the reset spring 24, sealing the outer rings of the network cable and the power line by using the sealing rubber 21, and sealing the periphery of the Ethernet interface 3 by using the dust-proof box 20, and dust is prevented from entering the Ethernet interface 3, so that poor contact is avoided.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A switch capable of displaying output power, comprising: comprises a machine box (1), wherein heat dissipation windows (2) are respectively arranged at two sides of the machine box (1) by the back, a plurality of Ethernet interfaces (3) are arranged in the machine box (1) and penetrate through the front of the machine box (1), a dustproof mechanism (5) is arranged at the front end of the machine box (1), a power supply interface (4) is arranged at one side of the front of the machine box (1) by the Ethernet interfaces (3), a dust collecting mechanism (6) is arranged at the rear end of the machine box (1), a screen groove (9) is arranged in the middle of the top end of the machine box (1), catching grooves (8) are respectively arranged in the middle of the two sides of the screen groove (9) at the top end of the machine box (1), a screen display mechanism (7) is arranged at the inner side of the screen groove (9), rail grooves (10) are respectively arranged in the middle of the front of the machine box (1) by the two sides, heat dissipation grooves (14) are respectively arranged at the positions corresponding to the two heat dissipation windows (2) by the two sides, the front end of the ash removal heat dissipation groove (14) is provided with an ash removal heat dissipation fan (15).

2. The switch of claim 1, wherein the switch is configured to display output power: the Ethernet interfaces (3) are divided into two rows, and each row comprises ten independent Ethernet interfaces (3).

3. The switch of claim 1, wherein the switch is configured to display output power: the screen display mechanism (7) comprises a plurality of unit display screens (11), the unit display screens (11) are arranged in a four-by-five matrix mode, rubber wrapping (12) is installed on the periphery of the unit display screens (11), two transmission lines (13) are installed at the bottom end of each unit display screen (11), and the tail ends of the two transmission lines (13) located at the bottom end of the same unit display screen (11) are electrically connected with an Ethernet interface (3).

4. The switch of claim 1, wherein the switch is configured to display output power: the dust collection mechanism (6) comprises a dust collection box (16), a sealing plate (17) is arranged in the middle of the front end of the dust collection box (16), dust collection holes (18) are formed in the middle of the front end and the rear end penetrating through the sealing plate (17) by means of two sides, four plug-in cards (19) are installed on the front face of the sealing plate (17), and jacks corresponding to the plug-in cards (19) are formed in the back face of the machine box (1).

5. The switch according to claim 1 or 4, wherein: the sealing plate (17) is sleeved with the dust collecting box (16), the four inserting cards (19) are arranged in a rectangular shape, and the size of the dust collecting box (16) is matched with that of the machine box (1).

6. The switch of claim 1, wherein the switch is configured to display output power: dustproof mechanism (5) include dust-proof box (20), install a plurality of sealing rubber (21) on the box body that runs through dust-proof box (20), slide rail (22) are all installed by both sides in the back of dust-proof box (20), and the back mounted of slide rail (22) has reset spring (24), and baffle (25) are installed between two parties to the inside that spacing card (23) dust-proof box (20) were all installed by the rear end to the both sides of slide rail (22).

7. The switch according to claim 1 or 6, wherein: the size of slide rail (22) and spacing card (23) and the size of track groove (10) match each other, run through the middle part of sealing rubber (21) and seted up incision reset spring (24) both ends respectively with the cell wall fixed connection of the rear end of slide rail (22) and track groove (10), the quantity and the position of sealing rubber (21) correspond each other with the quantity and the position of ethernet interface (3) and power source (4).

8. The switch of claim 1, wherein the switch is configured to display output power: the specific use steps of the switch are as follows:

the method comprises the following steps: pulling a dustproof box (20) in the dustproof mechanism (5) outwards to drive a sliding rail (22) to slide forwards along the direction of a rail groove (10), so that a reset spring (24) is stretched until a limiting card (23) is contacted with the front end of the rail groove (10) and cannot be pulled, plugging an external power line into a notch of sealing rubber (21) and pulling down the external power line until the power connector is lowered to the position of a power interface (4), inserting the power connector into the power interface (4), then plugging an external network cable into the notch of the sealing rubber (21) in the same way, inserting the network cable connector into an Ethernet interface (3), and then loosening the dustproof box (20) to enable the dustproof box (20) to be attached to the front of the machine box (1) under the driving restoring force of the reset spring (24);

step two: after the switch is started, the output power of each Ethernet interface (3) is transmitted to a corresponding unit display screen (11) through a corresponding transmission line (13) in the screen display mechanism (7) to be displayed, the unit display screen (11) is stored by using a screen groove (9), a gap between the unit display screen (11) and the screen groove (9) is filled by using a rubber wrapping edge (12), if the transmission line (13) connected below the unit display screen (11) is damaged, the screen display mechanism (7) is taken out through a catching groove (8), and then the damaged transmission line (13) is replaced and continuously connected;

step three: in the running process of the exchanger, the ash removal heat dissipation fan (15) is in a starting state, on one hand, the dust entering the machine box (1) through the heat dissipation window (2) is blown, so that the dust is blown to the dust collection hole (18) of the closing plate (17) along the direction of the ash removal heat dissipation groove (14), and is gathered in the dust collecting box (16) of the dust collecting mechanism (6), the dust collecting mechanism (6) is periodically taken down, the sealing plate (17) is opened to clean the dust in the dust collecting box (16), the sealing plate (17) is clamped at the front end of the inner side of the dust collecting box (16) after the dust is cleaned, the dust collecting mechanism (6) is installed at the original position, the plug-in card (19) is matched with the jack to fix the dust collecting mechanism (6), when the ash removal heat dissipation fan (15) operates, the heat inside the machine box (1) is driven by the airflow formed by the ash removal heat dissipation fan (15) to be diffused outwards through the heat dissipation window (2).